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Is it possible to define a function that is both generic over data type and unit of measure? E.g., what I would like to do, but doesn't compile (though it wouldn't even without units of measure present, but I believe I conveys what I'd like to do):

let inline dropUnit (x : 'a<_>) = x :> typeof(a)

the idea here is that I've defined some units of measure, e.g. "kg" and "l" and a dicriminated union:

type Unit = 
  | Weight of float< kg >
  | Volume of float < l >

and I would like to do something like:

let isValidUnitValue myUnit =
   match myUnit with
       | Weight(x) -> (dropUnit x) > 0.
       | Volume(x) -> (dropUnit x) > 0.

I am aware that for this particular case I could just use

let dropUnit (x : float<_>) = (float) x

but I started wondering about the general case while writing the above.

share|improve this question
One other option is to use a inline function to fake an interface. – John Palmer Jan 5 '13 at 10:37
up vote 6 down vote accepted

For your specific question how to write your isValidUnitValue function, the answer is:

let inline isValidUnitValue myUnit = myUnit > LanguagePrimitives.GenericZero

So you don't need to define a Discriminated Union.

Regarding the original question whether is it possible to define a function that is both generic over data type and unit of measure like dropUnit the short answer is no. If such function exists it would have a signature like 'a<'b> -> 'a and in order to represent it the type system should implement higher kinds.

However there are tricks using overload and inline:

1) Using overloads (a la C#)

type UnitDropper = 
    static member drop (x:sbyte<_>  ) = sbyte   x
    static member drop (x:int16<_>  ) = int16   x
    static member drop (x:int<_>    ) = int     x
    static member drop (x:int64<_>  ) = int64   x
    static member drop (x:decimal<_>) = decimal x
    static member drop (x:float32<_>) = float32 x
    static member drop (x:float<_>  ) = float   x

[<Measure>] type m
let x = UnitDropper.drop 2<m> + 3

But this is not really a generic function, you can't write something generic on top of it.

> let inline dropUnitAndAdd3 x = UnitDropper.drop x + 3 ;;
-> error FS0041: A unique overload for method 'drop' could not be determined ...

2) Using inline, a common trick is retyping:

let inline retype (x:'a) : 'b = (# "" x : 'b #)

[<Measure>] type m
let x = retype 2<m> + 3
let inline dropUnitAndAdd3 x = retype x + 3

The problem is that retype is too generic, it will allow you write:

let y = retype 2.0<m> + 3

Which compiles but will fail at run-time.

3) Using both overloads and inline: this trick will solve both issues by use overloading through an intermediate type, this way you get both compile-time checks and you'll be able to define generic functions:

type DropUnit = DropUnit with
    static member ($) (DropUnit, x:sbyte<_>  ) = sbyte   x
    static member ($) (DropUnit, x:int16<_>  ) = int16   x
    static member ($) (DropUnit, x:int<_>    ) = int     x
    static member ($) (DropUnit, x:int64<_>  ) = int64   x
    static member ($) (DropUnit, x:decimal<_>) = decimal x
    static member ($) (DropUnit, x:float32<_>) = float32 x
    static member ($) (DropUnit, x:float<_>  ) = float   x

let inline dropUnit x = DropUnit $ x

[<Measure>] type m
let x = dropUnit 2<m>   + 3
let inline dropUnitAndAdd3 x = dropUnit x + 3
let y = dropUnit 2.0<m> + 3   //fails at compile-time

In the last line you'll get a compile-time error: FS0001: The type 'int' does not match the type 'float'

Another advantage of this approach is that you can extend it later with new types by defining a static member ($) in your type definition like this:

type MyNumericType<[<Measure 'U>]> =
    static member dropUoM (x:MyNumericType<_>) : MyNumericType = ...
    static member ($) (DropUnit, x:MyNumericType<_>) = MyNumericType.dropUoM(x)
share|improve this answer
Great answer, thanks! – Bram Jan 5 '13 at 12:13

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